EP1489210A1 - Verfahren zur Herstellung eines Doppelpolgewebes auf einer Doppelpolwebmaschine - Google Patents

Verfahren zur Herstellung eines Doppelpolgewebes auf einer Doppelpolwebmaschine Download PDF

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Publication number
EP1489210A1
EP1489210A1 EP03014007A EP03014007A EP1489210A1 EP 1489210 A1 EP1489210 A1 EP 1489210A1 EP 03014007 A EP03014007 A EP 03014007A EP 03014007 A EP03014007 A EP 03014007A EP 1489210 A1 EP1489210 A1 EP 1489210A1
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EP
European Patent Office
Prior art keywords
weft
threads
repeat
binding
binding warp
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP03014007A
Other languages
German (de)
English (en)
French (fr)
Inventor
Rainer Dr. Gössl
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Schoenherr Textilmaschinenbau GmbH
SCHONHERR TEXTILMASCHINENBAU GmbH
Original Assignee
Schoenherr Textilmaschinenbau GmbH
SCHONHERR TEXTILMASCHINENBAU GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Schoenherr Textilmaschinenbau GmbH, SCHONHERR TEXTILMASCHINENBAU GmbH filed Critical Schoenherr Textilmaschinenbau GmbH
Priority to EP03014007A priority Critical patent/EP1489210A1/de
Priority to DE200450002351 priority patent/DE502004002351D1/de
Priority to EP20040014347 priority patent/EP1489211B1/de
Priority to CN 200410068494 priority patent/CN1594696B/zh
Publication of EP1489210A1 publication Critical patent/EP1489210A1/de
Withdrawn legal-status Critical Current

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    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D27/00Woven pile fabrics
    • D03D27/02Woven pile fabrics wherein the pile is formed by warp or weft
    • D03D27/10Fabrics woven face-to-face, e.g. double velvet

Definitions

  • the invention relates to a method for producing a double-pile fabric a double-pole weaving machine with at least two weft insertion levels below Use of weft threads, filling warp threads and groups of binding warp threads for the formation of an upper and a lower basic goods as well as choirs of Pile threads per warp course for the formation of a patterned, between the basic goods separable pile layer, the non-patterned pile threads, the dead poles, between the back and inside wefts while stabilizing the basic goods are involved.
  • EP 1 217 114 A1 describes a process for producing a double carpet fabric known with symmetrically arranged patterned poles.
  • the Sighting pile threads bind exclusively through back shots entered at the same time of upper and lower goods.
  • so-called Internal shots entered, which the non-patterning pile threads - the so-called dead poles - tie to the base fabric by crossing with appropriate binding warp threads.
  • the rhythm of the weft insertion is changed.
  • the repeat of the Weft entries extend over at least four weaving machine tours.
  • the Pole binding on the back of each product is achieved by entering the inner shots not changed.
  • the binding warp threads close the back wefts of successive tours mostly one or in pairs between them. In the area of the registered Inner wefts also wrap individual binding warp threads around this inner weft. To balance the binding length takes place between the binding warp threads There is usually a change of rhythm twice within a repeat and a group instead, so that the binding warp threads within a repeat of the group of Binding warp threads all have a uniform binding length.
  • This type of binding is advantageous because a change of pile thread is practically in everyone second tour can be done and each pole handle with high strength and vertical arrangement can be anchored in its basic goods.
  • Another advantage of this product is that the clamping of the pole handle between successively inserted wefts in the warp direction only in The area of the back shots is done.
  • the lower number of inside shots allows on the one hand, saving shot material.
  • Another disadvantage is that the majority of the crossing points of the binding warp threads is arranged in the plane of the back shots and thus in Area of the highest, concentration of pole material between the back shots located. As a result, the weft density and thus the pole row density (in Warp direction) limited.
  • EP 1 180 556 A1 describes a method for producing a double-pile fabric described with asymmetrical pole handle integration.
  • the two-shot Working method is in each tour in each of the basic goods (upper or lower goods) a shot entered.
  • One of the shots is a back shot, a second Shot is an inside shot.
  • the number of back shots is therefore identical to the number of internal shots registered - based on one of the two goods.
  • Each pole handle has two clamping points per basic product, which are located in the depth of the Fabric are arranged one above the other. Two pole legs become regular between two successive back shots and also between two successive interior shots clamped in the same way.
  • the carpet product produced in this way has a very high pull-out strength all pole handles.
  • the legs of the pole handles regularly protrude vertically of the basic goods.
  • the disadvantage is that the area of the free pole leg, which is essentially co-determines the step elasticity or the step comfort of a carpet fabric starts at the area of the inside shot. This weaving process leads increased thread consumption due to the greater depth of the base fabric Pole material and shot material.
  • binding reports for the binding warp threads, which extend over a larger number of weft insertion cycles.
  • the illustrated Binding reports are based on the fact that - in addition to one firm binding of the interior shots to back shots in depth - also one . Firm binding of weft threads adjoining one another in the warp direction (weft density) is guaranteed.
  • the binding warp threads are used to ensure a saving of thread material a group divided into adjacent warp courses.
  • binding warp threads usually assigned to a warp course, which within a Binding report of every weft thread (back or inner weft) at least cross once tying.
  • binding chain material With the aim of saving binding chain material bind z.
  • Binding warp threads of a group can be distributed on adjacent warp courses.
  • the disadvantage is that the type of bindings chosen is a paired assignment an inside shot to every back shot is necessary. But that leads - as already described above - to double clamping points and thus to one increased pile thread consumption.
  • DE 21 64 948 A1 describes a weaving process in which the Weft threads are entered in a four-speed repeat, for example. Two pairs of weft threads are initially entered in successive tours. One of these weft threads entered in pairs is an inner weft in a first product (upper or lower product) and a back shot in one second commodity. The assignment changes in the following tour. In the further Two individual shots are then entered. A first single shot is a Back shot in the second goods and another single shot a back shot in the first commodity.
  • the three shots in each item entered in the four tours are through two binding warp threads of a group enclosed in a common opening.
  • the inner weft is located between two of a binding warp thread encircled back shots.
  • the highest concentration of pile threads between successively entered Weft threads are in the level of the back wefts of each product. In the same level also cross after every fourth weft insertion cycle the binding warp threads in each warp course at the same time.
  • the non-patterning poles (Dead poles) by means of an internal weft and a suitably guided binding chain on the pole side held on the back shot.
  • the three shots mentioned include two back shots and one Inside shot - the filling chain and the dead poles between them in depth.
  • the Internal shots of both goods are entered in pairs.
  • the back shots on the other hand, by omitting one shot entry, they are always shot individually introduced alternately in the two goods. Becoming a patterned pole handle - apart from the change of pile thread - spread from the back of both goods. When changing the pile thread, individual legs of pile handles of Inside shot open:
  • EP 1 152 076 A2 describes a weaving method in a similar way, as it was disclosed by DE 21 64 904. The only difference is in that the pole handles of the upper or lower fabric alternate between back shots both goods and between arranged within the filling chain "Intermediate shots" of both goods are spanned.
  • the three shots of each item entered within a four-speed repeat are thus in three different levels, which are parallel to the level of Extend filler warp threads of the fabric.
  • the highest density of the pole legs is equally in the level of the intermediate shots and - in much the same way - at the level of the inside shot reached. At the level of the intermediate shots, the density is therefore something higher because the binding warp threads cross each other and active forces in the direction of the stop muster.
  • the object of the present invention is, with the most economical use of pole, Weft and binding warp thread material, with asymmetrical pile handle arrangement and the density of the rows of pole handles ensures a high pull-out strength of double pile fabrics to increase. To ensure adequate Productivity of fabric manufacturing should at least in sections be a two-pronged one Working method and a two-turn pole binding may be possible.
  • the decisive advantage of the procedure defined in claim 1 is in the fact that in almost every tour there is a specialist representation per thread group, which is suitable to increase the density achieved by the reed at the shot fix. Thereby, in the areas of the highest concentration the patterning Pole threads between successive back shots - through the division the binding warp threads of a group on two adjacent warp courses - Crossings of the binding chains within a warp course largely avoided.
  • Binding warp thread Due to the significantly lower density of the shots in the plane of the inner shots compared to that in the level of the back shots - especially at the Attack from inside shots - the effective force component of the setting Binding warp thread can be enlarged in the direction of weaving.
  • the method of working according to claim 4 increases the number of opposing technical representatives one binding warp thread group per weft repeat and clearly guarantees one higher pole row density.
  • the limited differentiated integration length of the individual Binding warp threads in a group are automatically the same for most thread materials out. If necessary, the requirements can be met through regular rhythm changes for an even incorporation of the binding warp threads.
  • the method according to claim 5 is comparable in terms of advantages with those which can be reached by claim 3. You can also use this type of binding work analogously to claim 4 with two pairs of binding warp threads.
  • the embodiment according to claim 6 does require a higher effort in the Control of the individual shafts, but leads to a higher density and one further reduced material expenditure for the binding warp threads.
  • the practically measured highest weft density is with the design of the binding thread repeat reachable according to claim 6.
  • Critical crossing points of the binding warp threads especially in the areas of back shots are on two adjacent warp courses distributed.
  • the shot angle this described is suitable Binding warp repeat in a special way.
  • claim 7 shows a binding variant with a larger one Pick repeat. Such a bond leads to further material savings and to an improvement in pedaling comfort.
  • Double carpet weaving machine with at least two weft insertion levels, with one - Preferably 12-shaft - shaft arrangement for the formation of the binding warp threads and the filling warp threads as well as with an at least three-position jacquard machine for controlling the drive of the pile warp threads for shedding.
  • This double carpet weaving machine is equipped with a clamping and cutting device for the weft, which is also able to weft a Submitting or not submitting the gripper of a weft insertion system. She is also equipped with a sensor that monitors whether a weft thread was entered according to the rapport RS or not.
  • the back shot SR1 is entered in the upper fabric WO and the inner shot Sl2 in the lower fabric WU.
  • the back shot SR1 individually in the underwear WU and then also individually the back shot SR2 entered in the upper WO.
  • the last tour of the Shot reports RS two shots are entered again at the same time.
  • the of the basic fabric the binding warp threads are on two adjacent ones Warp courses K1, K2 distributed. To do this, we can see that every back shot SR by a representative of a binding warp thread B1 of a group in the direction of the stop is fixed.
  • the relations between the repeat RB of the binding warp threads B and the repeat RS of the weft threads S are always retained in every double carpet fabric.
  • the size of the repeat RB is always an integer multiple of the repeat RS of the weft S.
  • the binding of the outer fabric WO produced according to this scheme is in FIG. 6 shown again in an approximately natural section in the plane of the warp course 1.
  • the filler chain F and the group of dead poles PT belonging to the respective warp course belong, are in the background and are therefore shown in dashed lines.
  • the patterning pile handles are located directly in front of these warp threads F, PT PM of the warp course K1, which all bind via back shots SR1, SR2.
  • the majority of the crossing points between binding warp threads B1 (x) of a group is located on the outside of the SR back sections or on the inside of the inside sections SI.
  • Other crossing points within a warp course K1 are in Area of the dead poles PT. They do not limit the pile row density of the fabric.
  • binding warp threads that are the narrowest area between back wefts tangent, consist regularly of binding warp threads of both warp courses K1, K2. This also does not limit the pole row density. Is clearly visible from 6 also shows that each back weft SR is made up of a binding warp thread B1 is pulled to the previously formed basic goods. This ensures that the density of the fabric created by the reed by a specialist The binding warp thread of each group is fixed with almost no loss.
  • the binding warp threads are the individual warp courses K1 and K2 can also be assigned in a different way. It is possible to use the same type binding warp threads B11 and B12 binding to the weft repeat; B13, B14 one first warp course K1 and the binding warp threads B15, B16; B17, B18 a second Assign warp rate K2. This eliminates double ties of the binding chains on the back. On the other hand, intersection areas arise, which are the areas of highest density of the pile thread legs between the back shots at least tangent.
  • the repeat RB2 of the binding warp threads B2 extends over sixteen Weft insertion cycles in every product WO, WU.
  • the B21 binding warp thread begins left outside with a binding on the inside weft Sl1, then changes to the next tour outside via the back shot SR1 of his goods (WO) before he after passing under a next SR2 back shot after another three Tours binds back inside via the next inside shot SI1. From there he switches back to the level of the back shots SR.
  • the type of binding of the second binding warp thread B22 of the upper material WO is - .related to the rhythm - identical to the first B21 binding warp thread.
  • the Binding elements are around eight tours or weft insertion cycles executed offset to each other.
  • Each binding warp thread B21, B22 has in its Repeat section two exchange points W212 and W211 or W221 and W222. In there is a change of rhythm in these sections. This rhythm change is necessary to make the necessary connections within a repeat RB Execute inner wefts S1 with only one binding warp thread B21, B22 and at the same time the binding length of all binding warp threads B21, B22 within one Keep the RB2 twine repeat at a uniform size.
  • the binding warp threads B21, B22, B23, B24 which carry out this repeat can be used for Upper goods WO and for lower goods WU are pulled from the same warp beam.
  • the binding thread repeat RB2 in the lower fabric WU is preferably symmetrical and offset by a tour to repeat RB2 of the Oberware WO.
  • the goods manufactured according to this binding scheme are in one form in FIG. 7 shown that comes very close to the real bond.
  • the binding warp thread is B22 drawn in dashed lines. This means that the K2 assigned.
  • FIG. 7 It is particularly clear in FIG. 7 in which areas between the Back shots SR1 and SR2 have the highest concentration of pile yarns. It can be seen that in the majority of the gaps per chain course maximum a binding warp thread (B) crosses the pole legs.
  • the binding warp thread is B21 twice individually aligned with the pole legs, once there are two sections the B21 binding warp in the same alley.
  • the four pole legs are regularly located between two inner sections SI the pole handle binding over the back shots SR. Their density is in the plane the internal shots Sl significantly lower than in the level of the back shots SR, where the number of shots is twice as high.
  • This inside shot SI are hardly deflected by the binding warp threads B21 and B22.
  • the buttocks protrude vertically from the basic product WO. They are shot through the inside SI flexibly supported and thus ensure a high level of comfort and convenience good recovery ability of the pole layer after exercise.
  • FIG. 3 shows the schematic bond image of a further type it except the repeat RB3 of the binding warp threads B31, B32, B33, B34 opposite the 1 shows a complete match.
  • the repeat RB3 of the binding warp threads B31, B32, 833, B34 extends in the upper fabric WO and WU base fabric over sixteen weft insertion cycles each.
  • the The course of the binding warp threads B31, B32, B33, B34 and their repeat RB3 is based on the binding warp threads B3 of the upper WO described.
  • the binding warp threads B31, B32 are arranged in a first warp course K1.
  • the binding warp threads B33, B34 (Dash-dot or dash-dot-dot) are in the one behind Warping course K2.
  • the binding program of these two pairs of binding warp threads is over four weft insertion cycles offset from each other.
  • the binding program of the Pair of binding warp threads B31, B32 / B33, B34 is around eight weft insertion cycles offset from each other.
  • the form of the integration is described using the B31 binding warp thread.
  • it ties (top left) in the upper compartment without contact over the inner weft S11 and first tangentially crosses the back shot SR1.
  • This binding warp thread crosses the following inner weft SI still without contact outside. After that, he stays within the level of the back shots, before crossing the inside shot SI on the fifth tour.
  • the following seven tours he switched between back shots and inside shots remaining, back in the outer compartment and crossed in the eighth tour the back weft SR1 and thus begins the new binding thread repeat RB3.
  • the binding warp threads B32 of the same warp course and the binding warp threads B33 and B34 arranged in the warp course behind are.
  • the repetitions of the group's binding warp threads are thus in relation to one another Warp direction offset that finally all back shots SR and all inside wefts SI are bound from the outside or inside.
  • the binding warp threads B33 and B34 of the second warp course K2 cross in the Level of the back wefts the binding warp threads B31 and B32 of the first warp course K1.
  • their distribution in different warp courses K1, K2 is avoided an excessive restriction of the space for the pole legs in the plane of the Back shots SR, where the highest pile thread concentration is given.
  • binding warp threads B3 within a pair of binding warp threads B31 / B32 and B33 / B34 are regularly located in the inner area of the Goods WO or WU. They are thus clearly shifted from the zone of the highest compression of the patterning pole legs in the plane of the back shots SR. Pairs of back wefts SR, between which binding warp threads B3 are completely missing, together through a specialist representative of a B3 binding warp thread pulled against the previously compressed tissue and fixed in the stroke density.
  • FIG. 5 The approximately real design of the thread combinations in this fabric according to Fig. 3 is shown in FIG. 5.
  • the crossing points of the binding warp threads B31 and B33 as well the binding warp threads B32 and B34 are all in the range of the highest Concentration of pile threads between back shots. However, you are here only present individually because they are in different warp courses K1, K2.
  • the crossing points of the binding warp threads B31 / B32 or B33, B34 are the same Chain rates K1 and K2 are, without exception, clearly outside the level of SR back shots and thus do not affect the pole row density.
  • the closest bond is shown in FIG. 8 in the same way, which the state of the art offers.
  • the back shots SR8 and intermediate shots SZ8 outside and inside the filling chain 8 highest concentration of pile threads between weft threads in the plane of the Intermediate shots SZ8 and in the level of the inner shots SI8 reached.
  • the binding warp threads fixing the intermediate weft SZ8 in the stop direction can only exert a limited force in the direction of the stop, so that between the two intermediate shots as well as between the inner shots stretch the lying pile thread leg after the stop.
  • the at The density of the weft threads reached cannot be obtained in this way.
  • the binding warp threads of a group carry only one for each weft thread repeat only professional representative.
  • the density of the finished carpet fabric is clear lower than z. B. that of the fabric shown in FIG. 5 or in FIG. 7.
  • Another disadvantage of the binding according to FIG. 8 is that the tufts of poles between leave the binding of the basic goods at a slight incline. This Inclination arises from the fact that the intermediate shot has the pole legs under the Back shot deflects in an arc. This tendency becomes greater the denser one weaves the double carpet fabric.
  • the fabric described in relation to FIG. 8 has other crucial ones Disadvantage. It is practically not possible between a back shot and SR8 an intermediate shot SZB to change the pile thread. Regularly individual pole legs would be missing there. The already lower pull-out strength of pole handles on an intermediate shot (approx. 50%) is still in this case significantly less.
  • each shooting a pole handle Back shot is, a change of pile thread can be realized in every second tour. Examples of this are shown in u. a. 4, in which a large number of variants for one such a change of pile thread is shown.
  • the pile threads PM41 to PM44 are involved in the change of pattern shown.
  • the PM 41 pile thread is patterned in the usual way in a two-shot weave.
  • the PM42 pile thread is prepared by a bond inside on the inside shot SI41 on its pattern, which, finally, on SR41 back shot in the WU base fabric begins. After binding over the Back weft SR43 in the upper and over the weft SR42 in the The bottom fabric ends its patterning in the dead pole strand PT of the bottom fabric WU.
  • the PM42 pile thread is replaced by the PM43 pile thread from the outer fabric WHERE. He starts his pattern over the back shot SR44, crosses the Back shot SR45 of the lower fabric WU and the back shot SR46 of the upper fabric WHERE. Then it is fed back into the strand of the dead poles PT.
  • the binding warp thread B92 shows a further binding variant for the binding warp threads B91 B92 demonstrated.
  • the RS9 weft repeat extends over four weft insertion cycles.
  • the repeat RB9 of the binding warp threads B91, B92 is repeated after every eight Tours.
  • the two binding warp threads B91, B92 of a group are on two warp courses K1 or K2 distributed.
  • the binding warp thread B91 coming from an inner weft SI crosses the first SR back shot one by one, then passes under the following ones Back shots before he crosses another back shot and outside finally, the repetition ended bindingly on the inside weft.
  • the binding warp thread B92 carries out the same binding with four tours offset.
  • the invention is not restricted to the use of a four-speed shot repeat SR. It is quite possible to add this repeat by adding more Enlarge single-shot pairs. This will make the ratio between the number the back shots SR and the number of inside shots SI even more differentiated. A limit is only set by the need for supporting internal shots SI.
  • FIG. 10 shows an example of a shot repeat that has been enlarged in this way.
  • the shot repeat RS10 extends over six weft insertion cycles.
  • the rapport RB10 the binding warp threads B101, B102 are repeated after every twelve tours.
  • the two binding warp threads B101, B102 of a group are on two warp courses K1 and K2 distributed.
  • the B101 binding warp thread coming from an inner weft SI crosses outside a pair of SR back shots, then passes under the following three Back shots before he crosses another back shot and outside finally, the repeat RB10 is finished on the inside by binding.
  • the Binding warp thread B102 carries out the same weaving offset by six turns.

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Woven Fabrics (AREA)
EP03014007A 2003-06-21 2003-06-21 Verfahren zur Herstellung eines Doppelpolgewebes auf einer Doppelpolwebmaschine Withdrawn EP1489210A1 (de)

Priority Applications (4)

Application Number Priority Date Filing Date Title
EP03014007A EP1489210A1 (de) 2003-06-21 2003-06-21 Verfahren zur Herstellung eines Doppelpolgewebes auf einer Doppelpolwebmaschine
DE200450002351 DE502004002351D1 (de) 2003-06-21 2004-06-18 Verfahren zur Herstellung eines Doppelpolgewebes auf einer Doppelpolwebmaschine
EP20040014347 EP1489211B1 (de) 2003-06-21 2004-06-18 Verfahren zur Herstellung eines Doppelpolgewebes auf einer Doppelpolwebmaschine
CN 200410068494 CN1594696B (zh) 2003-06-21 2004-06-21 用于在双面绒头织物织机上生产双面绒头织物的方法

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP03014007A EP1489210A1 (de) 2003-06-21 2003-06-21 Verfahren zur Herstellung eines Doppelpolgewebes auf einer Doppelpolwebmaschine

Publications (1)

Publication Number Publication Date
EP1489210A1 true EP1489210A1 (de) 2004-12-22

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EP03014007A Withdrawn EP1489210A1 (de) 2003-06-21 2003-06-21 Verfahren zur Herstellung eines Doppelpolgewebes auf einer Doppelpolwebmaschine

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EP (1) EP1489210A1 (zh)
CN (1) CN1594696B (zh)
DE (1) DE502004002351D1 (zh)

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2929623B1 (fr) * 2008-04-03 2010-06-04 Schonherr Textilmaschb Procede de tissage pour realiser un tapis et tapis obtenu par un tel procede
TR201808546T4 (tr) * 2011-09-06 2018-07-23 Staeubli Bayreuth Gmbh Halı dokuma yöntemi ve böyle bir yöntemle dokunmuş halı.
WO2013041938A2 (en) * 2011-09-22 2013-03-28 Nv Michel Van De Wiele Method for weaving a pile fabric
BE1022393B1 (nl) * 2013-01-10 2016-03-21 Nv Michel Van De Wiele Werkwijze voor het weven van poolweefsels en werkwijze voor het daarvoor uitrusten van een weefmachine
EP2894244B1 (en) * 2014-01-09 2018-11-28 STÄUBLI BAYREUTH GmbH Method for weaving pile fabrics and pile fabric with shadow cut pile zones
EP3702500B1 (en) * 2019-02-26 2022-04-06 STÄUBLI BAYREUTH GmbH Method for weaving pile fabrics and pile fabric woven with such a method

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2164948A1 (de) * 1971-12-28 1973-07-12 Tonnar Gmbh Felix Verfahren zum weben von doppel-florgeweben
EP1152076A2 (en) * 2000-05-02 2001-11-07 NV Michel van de Wiele Method for face-to-face weaving pile fabrics and pile fabrics woven according to this method
EP1180556A1 (de) * 2000-08-16 2002-02-20 SCHÖNHERR Textilmaschinenbau GmbH Verfahren zur Herstellung eines Doppelpolgewebes
EP1217114A1 (de) * 2000-12-08 2002-06-26 SCHÖNHERR Textilmaschinenbau GmbH Verfahren zur Herstellung eines Doppelpolgewebes

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Publication number Priority date Publication date Assignee Title
CN1005489B (zh) * 1985-09-10 1989-10-18 赫伯特·简森 提花双层长毛绒织物
CN1019212B (zh) * 1987-01-08 1992-11-25 李秉仁 经花双面长毛绒织物
EP0767261B1 (de) * 1995-10-06 2001-03-21 CHEMNITZER WEBMASCHINENBAU GmbH Verfahren zur Herstellung eines Doppelteppichgewebes in Zweischussbindung und Vorrichtung zur wahlweisen Ansteuerung der Polfäden
BE1012357A3 (nl) * 1998-12-21 2000-10-03 Wiele Michel Van De Nv Werkwijze voor het dubbelstukweven van poolweefsels.

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2164948A1 (de) * 1971-12-28 1973-07-12 Tonnar Gmbh Felix Verfahren zum weben von doppel-florgeweben
EP1152076A2 (en) * 2000-05-02 2001-11-07 NV Michel van de Wiele Method for face-to-face weaving pile fabrics and pile fabrics woven according to this method
EP1180556A1 (de) * 2000-08-16 2002-02-20 SCHÖNHERR Textilmaschinenbau GmbH Verfahren zur Herstellung eines Doppelpolgewebes
EP1217114A1 (de) * 2000-12-08 2002-06-26 SCHÖNHERR Textilmaschinenbau GmbH Verfahren zur Herstellung eines Doppelpolgewebes

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DE502004002351D1 (de) 2007-02-01
CN1594696B (zh) 2010-12-08

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